1 |
Asano, T., Tsutsui, S. and Sakai, T. (1988). 'Wave Damping Characteristics due to Seaweed', Proc. the 35th Coastal Engineering Conference in Japan, JSCE, pp 138-142
|
2 |
Asano, T., Matsumoto, R. and Kikuchi, S. (2005). "Wave Deformation in Vegetation Fringed Channels", Proc. the 29th International Conference Coastal Engineering, pp 218-229
|
3 |
Sunamura, T. and Horikawa, K. (1974). "Two Dimensional Beach Transformation due to Waves", Proc. the 14th International Conference Coastal Engineering, pp 920-938
|
4 |
Goda, Y. (1985). Random Seas and Design of Maritime Structures, University of Tokyo Press
|
5 |
윤석민, 함계운, 박준일, 장대정 (2008). '식생에 의한 파랑변형의 실험적 연구', 제34회 대한토목학회 정기학술대회, pp 4207-4210
|
6 |
이성대 (2007). '연안식생에 의한 표사이동 특성에 관한 수치해석', 한국해양공학회지, 제21권, 제5호, pp 18-24
|
7 |
Kobayashi, N., Raichle, A.W. and Asano, T. (1993). 'Wave Attenuation by Vegetation', J. of Waterway, Port, Coastal, and Ocean Engineering, ASCE, Vol 119-1, pp 30-48
|
8 |
Sugahara, K. and Nagai, T. (1994). Hydraulic Model Experiment on the Artificial Seaweed against Scouring and Beach Erosion, Tech. Note of PHRI
|
9 |
Broome, S., Rogers, S.M. and Senaca, E.D. (1992). Shoreline Erosion Control using Marsh Vegetation and Low-cost Structures, Sea Grant Pub. of US Envir. Protection Agency and Univ. North Caroline, p20
|
10 |
Sugahara, K. and Irie, I. (1992). 'Experiments on the Effects of Artificial Seaweed on the Sand Movement'. Tech. Note of PHRI
|